CN209617428U - Cyanobacteria based on bionic mechanical fish, which inhales, buries processing unit - Google Patents

Abstract

The utility model discloses a kind of, and processing unit is buried in the cyanobacteria suction based on bionic mechanical fish, including bionic mechanical fish ontology, bionic mechanical fish ontology is equipped with first, second cyanobacteria storage silo, the front of first cyanobacteria storage silo is equipped with blue algae collecting mechanism, it is equipped with cyanobacteria between the lower part of first cyanobacteria storage silo and the second cyanobacteria storage silo and crushes conveying mechanism, discharging mechanism is equipped in second cyanobacteria storage silo, discharging mechanism provides discharge power by drive shaft, the output shaft fixed connection of drive shaft and drain motor, blue algae collecting mechanism, cyanobacteria crushes conveying mechanism, discharging mechanism, drain motor provides power by internal battery.The structure design of the utility model is reasonable, extruding pulverization process is carried out after capable of receiving to water-surface blue-green algae, bionic mechanical fish ontology sinks, and exhaust tube is inserted among underwater mud using the inertia to sink, cyanobacteria particle is squeezed into mud by pressure, the burying depth for guaranteeing cyanobacteria, prevents cyanobacteria from floating on the surface of the water again, realizes low-consumption high-efficiency green disposition algae evil.

Description

Cyanobacteria based on bionic mechanical fish, which inhales, buries processing unit

Technical field

The utility model relates to cyanobacteria processing technology fields more particularly to a kind of cyanobacteria based on bionic mechanical fish to inhale and bury place Manage device.

Background technique

Lake frequently occurs blue algae bloom, causes to seriously affect to the economy and society development on basin periphery.Blue algae bloom Property growth and breeding simultaneously forms " wawter bloom ", is the important characterization in lake, Reservoir Eutrophication.The enrichment of large area, high concentration cyanobacteria It causes damages to Ecology, water environment and human health etc..Its direct ecological consequence is that bio-diversity reduces even funeral It loses, lake, reservoir landscape value and service function reduce.Therefore, the improvement of cyanobacteria is very necessary and urgent.

Submariner device field has various bionic mechanical fishes and occurs in the prior art, such as Publication No. A kind of novel bionic mechanical fish that CN207670636U patent provides, a kind of string that Publication No. CN107953981A patent provides Connection formula hybrid power becomes aerofoil profile bionic mechanical fish formula submariner device, and one kind three that Publication No. CN107161305A patent provides is freely Du Fang Scad section autonomous machine fish.Its is many kinds of for bionic mechanical fish, is not listed one by one.But it is bionical without utilizing in the prior art Mechanical fish carries out the scheme of cyanobacteria processing, and existing cyanobacteria processing equipment is mostly the cyanobacteria processing ship that can collect cyanobacteria, receives It cannot quickly be handled after being filled with, can only temporarily transport to bank artificial treatment, cause cyanobacteria treatment effeciency low, processing cost It is very big, it needs to improve.

Utility model content

The purpose of the utility model is to overcome the above-mentioned problems in the prior art, provide a kind of based on bionic mechanical The cyanobacteria of fish, which inhales, buries processing unit.

To realize above-mentioned technical purpose and the technique effect, the utility model is achieved through the following technical solutions:

A kind of cyanobacteria based on bionic mechanical fish, which inhales, buries processing unit, including bionic mechanical fish ontology, the bionic mechanical Fish ontology is equipped with the second cyanobacteria storage silo positioned at the first cyanobacteria storage silo of front end and positioned at middle-end lower part, and described first is blue The front of algae storage silo is equipped with blue algae collecting mechanism, sets between the lower part of the first cyanobacteria storage silo and the second cyanobacteria storage silo There is cyanobacteria to crush conveying mechanism, is equipped in the second cyanobacteria storage silo several for discharging the discharging mechanism of cyanobacteria particle, institute It states discharging mechanism and provides discharge power, the output shaft fixed connection of the drive shaft and drain motor, the blue algae collecting by drive shaft Mechanism, cyanobacteria crush conveying mechanism, discharging mechanism, drain motor and provide power by internal battery；

The blue algae collecting mechanism includes tube body, and the tube body is located at outer end equipped with oviduct, and inner end is rectangular tube, described The inside of tube body is installed with chain-plate type endless apron, is fixed with raker on the outside of the chain-plate type endless apron intermediate plate；

It is variable diameter varying pitch conveyer, the feed inlet position of the variable diameter varying pitch conveyer that the cyanobacteria, which crushes conveying mechanism, In the bottom wall of the first cyanobacteria storage silo, discharge port is located at the side wall of the second cyanobacteria storage silo, in the variable diameter varying pitch conveyer The diameter of screw rod, screw pitch are gradually become smaller by feed inlet towards discharge port, and crushing conveying mechanism by the cyanobacteria can be to first Cyanobacteria carries out extruding crushing in cyanobacteria storage silo, and the second cyanobacteria storage silo is delivered to after crushing；

The discharging mechanism includes discharge drum and steering base, and the steering base is fixed on the upper end of discharge drum, the discharge Cylinder offers multiple feed inlets close to the side of upper end, and lower end is equipped with the discharge port being in communication with the outside, is equipped in the discharge drum Equal diameter shaft with spiral shell leaf, edge part and the discharge tube inner chamber of the spiral shell leaf offset, can be divided into discharge tube inner chamber multiple The upper end in section, the equal diameter shaft is protruded into steering base, and is sequentially connected by tooth sector group and drive shaft.

Further, the above-mentioned cyanobacteria based on bionic mechanical fish, which inhales, buries in processing unit, the bionic mechanical fish ontology Outside is equipped with pectoral fin, dorsal fin and tail fin, and the top for being internally located at the second cyanobacteria storage silo is equipped with gasbag chamber, using in gasbag chamber Air bag and pectoral fin, dorsal fin and tail fin realize the turning and floating dive of bionic mechanical fish ontology.

Further, the above-mentioned cyanobacteria based on bionic mechanical fish, which inhales, buries in processing unit, the bionic mechanical fish ontology Back side is equipped with for the photovoltaic power generation plate for internal battery charging.

Further, the above-mentioned cyanobacteria based on bionic mechanical fish, which inhales, buries in processing unit, and the cyanobacteria crushes conveying mechanism When not working, the channel between the first cyanobacteria storage silo, the second cyanobacteria storage silo can be sealed using internal helicoid bar.

Further, the above-mentioned cyanobacteria based on bionic mechanical fish, which inhales, buries in processing unit, when the discharging mechanism does not work, Equal diameter shaft using inside with spiral shell leaf can seal the channel between the second cyanobacteria storage silo and the external world.

Further, above-mentioned cyanobacteria based on bionic mechanical fish inhales and buries in processing unit, the discharging mechanism altogether there are three, It and is in single distribution.

The beneficial effects of the utility model are:

The structure design of the utility model is reasonable, receives first with blue algae collecting mechanism to water-surface blue-green algae and is stored in first Then cyanobacteria storage silo crushes conveying mechanism using cyanobacteria and carries out extruding pulverization process to cyanobacteria, treated, and cyanobacteria is delivered to Second cyanobacteria storage silo, after cyanobacteria reaches a certain amount of in the second cyanobacteria storage silo, bionic mechanical fish ontology sinks and utilizes down Then heavy inertia squeezes among the exhaust tube insertion underwater mud of discharging mechanism cyanobacteria particle in the second cyanobacteria storage silo Enter among underwater mud.This burial mode can guarantee the burying depth of cyanobacteria, prevent cyanobacteria from floating on the surface of the water again, reach low consumption height The purpose of effect green disposition algae evil.

Certainly, implement any product of the utility model it is not absolutely required to and meanwhile reach above all advantages.

Detailed description of the invention

In order to illustrate more clearly of the technical solution of the utility model embodiment, make required for being described below to embodiment Attached drawing is briefly described, it should be apparent that, the drawings in the following description are merely some embodiments of the present invention, For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings Other attached drawings.

Fig. 1 is the structural schematic diagram of the utility model entirety；

Fig. 2 is the structural schematic diagram of bionic mechanical fish ontology in the utility model；

Fig. 3 is the structural schematic diagram of blue algae collecting mechanism in the utility model；

Fig. 4 is the structural schematic diagram of discharging mechanism in the utility model；

In attached drawing, parts list represented by the reference numerals are as follows:

1- bionic mechanical fish ontology, 2- the first cyanobacteria storage silo, 3- the second cyanobacteria storage silo, 4- blue algae collecting mechanism, 401- oviduct, 402- rectangular tube, 403- chain-plate type endless apron, 404- raker, 5- cyanobacteria crush conveying mechanism, 6- discharge Mechanism, 601- discharge drum, 602- steering base, 603- feed inlet, 604- discharge port, the equal diameter shaft of 605-, 606- spiral shell leaf, 607- turn To gear set, 7- drive shaft, 8- drain motor, 9- internal battery.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts All other embodiment obtained, fall within the protection scope of the utility model.

It please refers to shown in Fig. 1-4, the present embodiment is inhaled for a kind of cyanobacteria based on bionic mechanical fish buries processing unit, including imitative Raw mechanical fish ontology 1, bionic mechanical fish ontology 1 are equipped with positioned at the first cyanobacteria storage silo 2 of front end and positioned at middle-end lower part Second cyanobacteria storage silo 3.The front of first cyanobacteria storage silo 2 is equipped with blue algae collecting mechanism 4, the lower part of the first cyanobacteria storage silo 4 It is equipped with cyanobacteria between the second cyanobacteria storage silo 3 and crushes conveying mechanism 5, is equipped in the second cyanobacteria storage silo 3 several for discharging The discharging mechanism 6 of cyanobacteria particle.Discharging mechanism 6 provides discharge power, the output shaft of drive shaft 7 and drain motor 8 by drive shaft 7 It is connected.Blue algae collecting mechanism 4, cyanobacteria crush conveying mechanism 5, discharging mechanism 6, drain motor 8 and provide power by internal battery 9.

Blue algae collecting mechanism 4 includes tube body, and tube body is located at outer end equipped with oviduct 401, and inner end is rectangular tube 402, tube body Inside be installed with chain-plate type endless apron 403, be fixed with raker 404 on the outside of chain-plate type endless apron intermediate plate.

It is variable diameter varying pitch conveyer that cyanobacteria, which crushes conveying mechanism 5, and the feed inlet of variable diameter varying pitch conveyer is located at first The bottom wall of cyanobacteria storage silo 3, discharge port are located at the side wall of the second cyanobacteria storage silo.Screw rod is straight in variable diameter varying pitch conveyer Diameter, screw pitch are gradually become smaller by feed inlet towards discharge port, and crushing conveying mechanism 5 by cyanobacteria can be in the first cyanobacteria storage silo 2 Cyanobacteria carries out extruding crushing, and the second cyanobacteria storage silo 3 is delivered to after crushing.

Discharging mechanism 6 includes discharge drum 601 and steering base 602, and steering base 602 is fixed on the upper end of discharge drum 601, is discharged Cylinder 601 offers multiple feed inlets 603 close to the side of upper end, and lower end is equipped with the discharge port 604 being in communication with the outside.Discharge drum The equal diameter shaft 605 with spiral shell leaf 606 is equipped in 601, edge part and 601 inner cavity of discharge drum of spiral shell leaf 606 offset, can will discharge 601 inner cavities of cylinder are divided into multiple sections, when rotation multiple sections position also with changing.The upper end of equal diameter shaft 605 It protrudes into steering base 602, and is sequentially connected by tooth sector group 607 and drive shaft 7.

The mechanical fish in existing can be selected in bionic mechanical fish ontology 1, such as present embodiments provides a kind of construction, and outside is equipped with Pectoral fin 101, dorsal fin 102 and tail fin 103, the top for being internally located at the second cyanobacteria storage silo 3 are equipped with gasbag chamber 104, utilize air bag Air bag and pectoral fin 101, dorsal fin 102 and tail fin 103 in room 104 realize the turning and floating dive of bionic mechanical fish ontology. Bionic mechanical fish ontology 1, which is located at pectoral fin 101, dorsal fin 102 and tail fin 103, is respectively equipped with pectoral fin cabin, dorsal fin cabin and tail fin cabin, Middle pectoral fin cabin is mounted with three-degree-of-freerotation rotation mechanism, and the deflection of pectoral fin can control the posture of fish body；Dorsal fin is mounted with inside cabin The sinusoidal wave generating device of two wavelength, for controlling the edge-on of fish body；Tail fin cabin is for installing tail fin swing and steering mechanism. Each cabin is independent sealed, is connected with each other, is sequentially fixed on skeleton by anti-control bus, constitutes bionic machine fish.Bionical machine The back side of tool fish ontology 1 is equipped with for the photovoltaic power generation plate for 9 charging of internal battery, which is existing structure, no It repeats again.

It, can be blue by the first cyanobacteria storage silo 2, second using internal helicoid bar when cyanobacteria crushing conveying mechanism 5 does not work Channel sealing between algae storage silo 3.It, can with the equal diameter shaft 605 of spiral shell leaf 606 using inside when discharging mechanism 6 does not work By the channel sealing between the second cyanobacteria storage silo 3 and the external world.It there are three discharging mechanism 6 is total, and is in single distribution.

One concrete application of the present embodiment are as follows: the present embodiment is reasonable in design, right first with blue algae collecting mechanism 4 Water-surface blue-green algae receives and is stored in the first cyanobacteria storage silo 2, then crushes conveying mechanism 5 using cyanobacteria and carries out extruding powder to cyanobacteria Broken processing, treated, and cyanobacteria is delivered to the second cyanobacteria storage silo 3, after cyanobacteria reaches a certain amount of in the second cyanobacteria storage silo 3, Bionic mechanical fish ontology 1 is sunk and the exhaust tube 601 of discharging mechanism 6 is inserted among underwater mud using the inertia to sink, so Cyanobacteria particle in the second cyanobacteria storage silo 3 is squeezed among underwater mud afterwards.This burial mode can guarantee the burial of cyanobacteria Depth prevents cyanobacteria from floating on the surface of the water again, achievees the purpose that low-consumption high-efficiency green disposition algae evil.

In the description of this specification, the description of reference term " one embodiment ", " example ", " specific example " etc. means Particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least one of the utility model In embodiment or example.In the present specification, schematic expression of the above terms be not necessarily referring to identical embodiment or Example.Moreover, particular features, structures, materials, or characteristics described can be in any one or more embodiment or examples In can be combined in any suitable manner.

The preferred embodiment in the utility model disclosed above is only intended to help to illustrate the utility model.Preferred embodiment is simultaneously There is no the details that detailed descriptionthe is all, also not limiting the utility model is only the specific embodiment.Obviously, according to this theory The content of bright book can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to preferably The principles of the present invention and practical application are explained, so that skilled artisan be enable to better understand and utilize this Utility model.The utility model is limited only by the claims and their full scope and equivalents.

Claims (6)

1. a kind of cyanobacteria based on bionic mechanical fish, which inhales, buries processing unit, including bionic mechanical fish ontology, it is characterised in that: described Bionic mechanical fish ontology is equipped with the second cyanobacteria storage silo positioned at the first cyanobacteria storage silo of front end and positioned at middle-end lower part, institute The front for stating the first cyanobacteria storage silo is stored equipped with blue algae collecting mechanism, the lower part of the first cyanobacteria storage silo and the second cyanobacteria It is equipped with cyanobacteria between storehouse and crushes conveying mechanism, is equipped in the second cyanobacteria storage silo several for discharging the discharge of cyanobacteria particle Mechanism, the discharging mechanism provide discharge power, the output shaft fixed connection of the drive shaft and drain motor, the indigo plant by drive shaft Algae collecting mechanism, cyanobacteria crush conveying mechanism, discharging mechanism, drain motor and provide power by internal battery；

The blue algae collecting mechanism includes tube body, and the tube body is located at outer end equipped with oviduct, and inner end is rectangular tube, the tube body Inside be installed with chain-plate type endless apron, be fixed with raker on the outside of the chain-plate type endless apron intermediate plate；

It is variable diameter varying pitch conveyer that the cyanobacteria, which crushes conveying mechanism, and the feed inlet of the variable diameter varying pitch conveyer is located at the The bottom wall of one cyanobacteria storage silo, discharge port are located at the side wall of the second cyanobacteria storage silo, spiral in the variable diameter varying pitch conveyer The diameter of bar, screw pitch are gradually become smaller by feed inlet towards discharge port, and crushing conveying mechanism by the cyanobacteria can be to the first cyanobacteria Cyanobacteria carries out extruding crushing in storage silo, and the second cyanobacteria storage silo is delivered to after crushing；

The discharging mechanism includes discharge drum and steering base, and the steering base is fixed on the upper end of discharge drum, and the discharge drum leans on The side of nearly upper end offers multiple feed inlets, and lower end is equipped with the discharge port being in communication with the outside, band spiral shell is equipped in the discharge drum The equal diameter shaft of leaf, edge part and the discharge tube inner chamber of the spiral shell leaf offset, and discharge tube inner chamber can be divided into multiple sections, The upper end of the equal diameter shaft is protruded into steering base, and is sequentially connected by tooth sector group and drive shaft.

2. the cyanobacteria according to claim 1 based on bionic mechanical fish, which inhales, buries processing unit, it is characterised in that: described bionical The outside of mechanical fish ontology is equipped with pectoral fin, dorsal fin and tail fin, and the top for being internally located at the second cyanobacteria storage silo is equipped with gasbag chamber, benefit The turning and floating dive of bionic mechanical fish ontology are realized with air bag and pectoral fin, the dorsal fin and tail fin in gasbag chamber.

3. the cyanobacteria according to claim 1 based on bionic mechanical fish, which inhales, buries processing unit, it is characterised in that: described bionical The back side of mechanical fish ontology is equipped with for the photovoltaic power generation plate for internal battery charging.

4. the cyanobacteria according to claim 1 based on bionic mechanical fish, which inhales, buries processing unit, it is characterised in that: the cyanobacteria It, can will be between the first cyanobacteria storage silo, the second cyanobacteria storage silo using internal helicoid bar when crushing conveyer structure does not work Channel sealing.

5. the cyanobacteria according to claim 1 based on bionic mechanical fish, which inhales, buries processing unit, it is characterised in that: the discharge When mechanism does not work, the equal diameter shaft using inside with spiral shell leaf can be close by the channel between the second cyanobacteria storage silo and the external world Envelope.

6. the cyanobacteria according to claim 1 based on bionic mechanical fish, which inhales, buries processing unit, it is characterised in that: the discharge It there are three mechanism is total, and is in single distribution.